How Electricity Gets to You

We don’t watch that much tv anymore, so our tea kettle goes on ransomly

Not anymore I'm afraid, traditional media is slowly going the way of the dodo.

@@Sophiebryson510 Other nations drink tea too, you know.

@@beback_ And TV is likewise dying in every other country too

The Turks drink a lot more tea per capita than the Brits. If they can handle it, so can the Brits.

Can confirm

If you guys are willing to respond, I have a question I haven't been able to get a proper answer to. I am curious what effect on the lines/power grid a sending and receiving source may have. Ie, a house that will receive electricity in the far north during short cloudy days, but also will produce electricity in the long cloudless days in the summer with solar panels on the roof. I get that AC is a thing but you figure there is some difficulty having the power and usage change possibly multiple a day.

@@route2070 actually main problem is that electricity can not be stored, it has to be consumed at the instance it is produced. Grid system is the facility that enables electric power to consumed at the user house but actually it is made far in a power plant. Now if I install a solar rooftop panel then it will produce power only at the day when the sun is on the sky and shine brightly, but others time it can not provide any electricity. At that time grid system provides the needed electricity.
Now if my solar rooftop system is large enough that it will generate more than I need, then you can actually send excess amount to the grid and get some money for that.
When you supply power to the grid then some where any other plan might get rest. Mainly gas fired power plant is operated whan peak demand occurs.
All this power flow management is a real-time challenge which is managed from any central Load Dispatch Center control room's huge computer.

I live in TX and during the Winter Storm here they mentioned that we were a few minutes away from a total grid reset. My question is, does a grid need to have a certain frequency for power plants to prevent a total grid collapse and if so, why?

@@subhajitkarmakar1 So then the house can switch between producer and user no problem. It doesn't have a negative on the power lines or anything? Also is the starting up the turbine at the natural gas facility automated, or is someone sitting there monitoring usage versus production and telling everything to start. Sorry for all the questions, and this video is great, there just seems to be a lot of minutia that are simple to think of but would require 2 minutes of video to answer each thing, so I get why Sam didn't go further.

They learned a valuable lesson from that experiment, about what it means to wield power.

​@@vigilantcosmicpenguin8721 - I don't know if you deserve more internet points for a penguin avatar or the pun!

hydro electric dams destroy the environment ,
destroys many things
1 million times more carbon foot print

@@dongshengdi773 not necessarily but yes it very well could

@@dongshengdi773 It has some kind of footprint, but it's not a carbon one.

Dr Yu 👏

Why are you not working on exploiting the best forms of renewable energy which are known and not being exploited and or coming up with new ways to convert electricity? Over unity is easily possible while obeying all the laws of thermodynamics.

As a guy watching this video, I'm amazed also

​@@spectrumofrealityis it possible without literal slave labor though? You need humans to mine, fabricate, transport, and maintain.

@@unlisted9494 Yes it is very easily possible. The labour and mantenance can be minimal after contruction while working on projects that will directly benefit you and yours is hardly slave labour while perhaps a labour of love.

20 min PH videos slap pretty hard too

2x is 10 min, etc

@K A E L Y N 💋 scam

@@danielculver2209 hydro electric dams destroy the environment ,
destroys many things
1 million times more carbon foot print

I feel this on a spiritual level

3 puns in 3 lines. You are a genius

Shockingly, there is still a lot of resistance to green energy in the US. Some people still need to flip the switch. But Wendover is leading the charge for a brighter future!
Ok. I'll stop with the bad puns.

@@rolandxb3581 Man u made this even better

3 terrible jokes that made me laugh

The amount of puns here is shocking

Thank you TimeBucks

Indeed. I now know were to set the explosives to cripple a entire country.

Nice undercover burn

@@Shinzon23 I think there are other very important areas that when bombed could cripple the USA, but i think power grids are quite like the veins of the country

@@ldelgg you could also argue that hitting the gas pipelines that are unguarded and cross through areas that are very easy to access as well as telecommunication infrastructure like fibre optic lines which again are also in places that are easy to get to and are also unguarded would also work

Yes, roughly speaking.
There is always more you could say about electricity grid complexity... no shortage of complexity there :D

Yes, but when production drops, frequency drops and the allowable frequency range is quite tight. On a 60Hz system in the US, you need to keep the frequency between IIRC 59.95Hz and 60.05Hz. In loads with mostly inductive impedances, IE most loads in the US, small changes in frequency can drastically change the effective impedance and power demand.

@@nicholasdaskalakis772 As I said, due to angular momentum and inertia, the speed of the turbines changes fairly slowly when the production and load don't exactly match. If load exceeds supply, the rotational speed, and hence frequency decreases. And when supply exceeds load, the opposite occurs and hence the frequency increases. And due to inertia, the rate of change is slow enough that the power companies can compensate by changing the power supplied to the turbines and hence generators. E.g. Hydroelectric, open or close gates to increase or decrease supply of water to turbines. Gas plants, increase or decrease gas being burning in turbines, etc.

I have always wondered about that. That's interesting, thanks

true but I think Sam was trying to prevent this from becoming week one of EE101 for 3 credits. But your points are correct

In France they do and not just a small percentage but a large one with hydro damn. Sometime they produce so much that they let Germany have some when their winds dont blow that strong

But that's just a dream, nuclear power plants simply take too long to build to tackle cimate crisis are expensive and are suffering from building delays annd cost overruns around the world.

@@deathgun3110 So instead of waiting 10 years for nuclear power plants, you think we should wait 100 years to solve our climate crisis? Because that's about how long it will take for batteries to cover the whole grid.

@@specialopsdave yeah as much as nuclear won’t solve the climate crisis, it would definitely help

No but if anyone does literally anything in LA, a Texan becomes angry and chambers a cartridge. It's the equivalent of angel wings and bell-ringing.

yeah since Texas has it's own power grid while other states don't

@@bazookabulldozers In a sense. Texas has a terrible power grid because it absolutely cannot be a team player.

@@googiegress7459 Every time a Californian eats a vegetable, an angry Texan gets an AR-15

@Mck Idyl California is one of the very worst states and ranks last in quality of life, has the most unreliable power grid, has the least educated population per capita, and the highest poverty rate per capita.

I’m pretty sure electrical grids fall into the catagory of ”Natural Monopoly”.
Meaning a case where the laws of Physics and the ”laws” of economics are too often at odds with each other.
Texas got to experience this first hand recently during a cold snap.
Most of their power is Natural Gas sourced, but neither the gas pumping stations, nor the power plants were sufficiently winterized.
Some gas facilities froze up, which drove up the spot price for Nat Gas.
Power generators refused to buy gas at a loss, so they stopped producing.
This cascaded the load on the grid, and resulting brownouts and blackouts caused even more gas pumping facilities to shut down (electric powered compressors, valves, and heaters) which cascaded spot price further. You get the vicious cycle...

@@samr9408 I'm imagining a 1900s silent auction with the utility company represented by an enthusiastically fast-talking auctioneer, but that's probably not it.

why there is no larger time frame contract ? is there that much difference in pricing between low demand hour and high demand hour pricing that 5 minute auction cycle can bring enough extra to be worth the additional operation complexity. Seems like a lot of effort for not a lot of gain

Interesting. Here in Brazil, the TSO is a different entity than the chamber of commerce. The pricing is done weekly for the overall operations of the grid, and TSO centrally determines which companies (generators) have to be on at any given moment.
This gets even more complex when you try to factor in cascading hydro plants (on a same river). How do you dispatch a plant in order to not deplete the reservoir, also not financially penalizing the ones up river (which are called upon less frequently). To divide the burden of such a interconnected grid, centrally operated by an independent operator, we have to have financial and legal instruments to divy up the profits and loss between the generating companies.
It's fare to say it is insane

As someone with a weird fixation on electrical systems. This is incredibly fascinating. Thank you for sharing.

These videos do make me feel schools could do better...

here in plattsburgh NY which is 40 from montreal we have the cheapest electricity in either the country or state because we get our power from hydro quebec. I even think Hydro quebec even sends some power to NYC.

@@ELYELYELroy Does Renewable mean cheaper in the U.S? I’m from Scotland. We meet 100% of our needs from renewables (mostly from onshore wind and hydro) and produce enough electricity to power the country twice over. Under construction are 2 massive offshore wind farms at 4.1GW and 1.1GW each respectively, a large under water tidal farm and 2 large hydro pumped storage schemes and tbh there hasn’t been reduction in prices.

Could probably also throw in Manitoba hydro which also is nearly pure hydro electric.

@@scottwhitley3392 not necessarily. But Hydro damns are cheap to run once constructed and, as long as the water keeps running, run forever. So hydroelectric is cheap in areas where there are lots of rivers, like Northern Quebec. Things like solar or wind vary on cost effectiveness based on the design and location.

Comment spotter un québécois

also: Quark, the best of what Germans do best that's not beer.

All turbines don't spin at the same speed. Depends how many poles are in the generator. But yeah once a generator is synchronized to the grid and you can't change its speed. Remove the steam it becomes a motor and uses power, full steam it doesn't speed up just makes more watts.

Technically correct, the best kind! Edited my comment for accuracy sake.

It's not actually all that much, depending -- the statistic I saw is that reactive power in the grid is about 10% of total power; which is to say, if you suddenly disconnect a generator, the whole thing just kind of goes thud within a millisecond or two. Which sounds about right, and is essentially putting a number on the response time hinted at in the video -- it's not instantaneous of course, it takes some time for power to get to customers from the generator, and this is about the figure.
What's interesting is where this statistic fails: there's still a fair amount of rotating machinery on the grid, which will keep going. But as it slows down in the process, it shifts out of phase with what the grid is supposed to run at, effectively breaking the statistic -- in essence, when power cuts, all that slowing machinery shifts out of phase with what the grid was running at, and so a simple measure of reactive power won't account for this. Put another way: on a cycle-to-cycle basis, the speed of any given rotor changes imperceptibly (ideally, not at all for 3-phase motors; 1-phase motors however get torque in pulses), not nearly enough to show up in a measure of phase shift or reactance. But change the frequency or voltage, and suddenly you can see a whole hell of a lot of reserve power, at least in the short term. Granted, that term is still probably only a second or something!

I don't understand what angular momentum is.

Veritasium has a good video about this.

Yeah, his representation here was pretty disingenuous. While it can take one or more days for a nuclear plant to turn off and on, largely due to Xenon poisoning, they are entirly capable of changing their power output marginally by a few percent almost instantly, and tens of percents over the course of an hour - keep in mind that a percent of a single reactor is still ~10MWe.
Nuclear plants are quite capable of load following - their 100% baseline is driven prettymuch entirely by the economic considerations.
It also peeves me a bit when he says hydro is "green, like wind and solar". ...and Nuclear too? Nuclear produces 3x less co2 per kwh than solar, and 10x if you're running a CANDU.
Dunno what it is in the rest of the world, but 2/3 of Canadians think Nuclear produces as much CO2 as burning oil. Small wonder why when it arbitrarily gets excluded from the 'green' category

Worth pointing out the Germany’s grid is overall more reliable than France, and also exports to France

@@the1barbarian781 wut ?
France is self sufficient, with a mix of nuclear ands dams, where germany get a lot of coal in his energy mix
I cannot see how germany energetical mix could be better

@@Xylos144 I’m pretty sure since he already stated that hydroelectric plants generate a non-significant amount of carbon pollution, when he said “green” he was referring more towards renewability than actual carbon emissions

@@kint87 I'm talking strictly in terms of grid reliability and both countries import and export plenty of energy. If I recall correctly Germany has the second most reliable grid behind Denmark. I agree Germany's current coal use is high but the good news is that it's decreasing

Give me about four weeks

@@Wendoverproductions look at this madlad ^^

@@Wendoverproductions the snow in Aspen sucked over thanksgiving weekend if it weren’t for that 7in. we got the day before.

@@Wendoverproductions Also if you’re looking to do a video on micro grids and need an example from the Valley, I believe they’re looking to connect the Aspen Airport, the RFTA hub, and other public utilities so they operate independently after the vandalism that shut down the gas lines around New Years.

Should be glad you're not freezing your asterisk off.

I live only 20 miles from Glenwood, imagine how I feel 😊

He has a fixation with CO for some reason, I have a feeling he lives here. For example, his Amazon video and ski resort video also used Colorado as an example

yeah I'm pretty sure he does live there

@@emilioalban1234 he does

I live in Glenwood as well as I am working on getting my pilot’s license so his videos are absolutely insane sometimes lol

HV lines are likely to get more expensive with scale, since copper is an expensive, limited resource, and hence will lead to substitution with less efficient aluminum. Also, the more HV lines you have the more likely they will get push back from NIMBY attitudes, and the more likely folks will want to route them through more desirable areas (folks backyards and wildernesses). HV lines are eyesores to most folks!

@@richdobbs6595 NIMBY arguments are made against HV lines just as often as they are against solar and especially wind power plants. Considering that you will need more resources for more power plants than for HV lines the solution is most likely to build both a more decentralized grid and more HV interconnections. That's at least the most environmentally friendly solution, it may not be the most economical solution.

@@richdobbs6595 aluminum isn't less efficient, for the same resistance, you just need a thicker gauge

Large scale grid storage will have very little impact on distance and our current lines. Literally as seen in the video, whether power is coming from a plant or storage, it goes through the same lines to the same end locations. Actually what having a large grid will do is allow a bunch of small storage locations all over the place to feed into one central network and therefore lower cost and raise efficiency by spreading out the storage. Sure if energy storage in montana starts getting depleted to send electricity to colorado, there will be major losses, but the idea is that there would be a bunch of smaller storage solutions all across colorado, so power can be pulled from the nearest one, and then generators charge up the storage.
Not to mention electric storage is the answer to making nuclear go from providing only a base level, to being able to fully supply on its own.

It will be a bit of both. Renewables are cheap, which means its really cost effective to overbuild capacity, to guarantee enough supply... but that means at some times, there will be more being generated than is needed. It effectively means some solar farms or wind farms need to be switched off, which is a bit of a waste. Big interconnectors to other regions means that this produced electricity can be diverted somewhere else.
Of course batteries or pumped hydro are also an option for this excess energy, but if you connect enough regions it reduces the need to store it at all.

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It’s shooting lasers at your eyes!

sports games, too, used to cause big headaches for the grid, because they're not predictable

MOAR PAWA!!

US is good at consuming.

If everybody consumed at that rate the planet would die

Energy consumption and electric usage are two different things. When considering all sources of energy (natural gas, wood, coal, electricity of course, etc) the US per capita numbers don't stand out as much. A lot of the extra household electric usage in the US is tied to air conditioning and heating. The size of the average US house does not help when it comes to that. I would also suggest US residents don't allow for colder homes in the winter and hotter in the summer due to the low cost of electricity in large portions of the US. I don't know for a fact what other countries do (I live in the US but my travels abroad are limited and therefore limit my assumptions on the habits of other countries) but if you can run an AC all day for pennies why suffer?

I don't understand how they do it.

Electricitea stations?

@@mmclerran17 lolzzz

@@mmclerran17 electrical, yes

I work for National Grid. This is simply not true

@@SecularSynthesis He's probably referring to the phenomenon called "TV pickup" causing surges in demand. That phenomenon is real even if he's exaggerating how much it requires preparing for.

I also watched that video, and realized that we could use our stomachs as batteries by going to an all-you-can-eat buffet for lunch and not eating anything else until the next day. Sure it's a little uncomfortable but it's a small price to pay!
Although I'm a cold-weather mammal and I'm most comfortable around 67F anyway. So when he was describing his house as chilly at night I was like ~orly~

I've been thinking about that video for a while now - solar panels are becoming absolutely dirt cheap, you can get up to 600W panels for like $300 (Canadian Solar, if I'm not mistaken). Slap together 10 of those, get a 7kw pure sine wave inverter, and you have a rather enormous amount of free electricity for a surprisingly small upfront investment.
It only gets expensive when you actually try to store that energy - batteries are expensive, and can be a massive pain to manage. But if you just pumped that 6kw straight into your air conditioning, and/or your electric water heater, you could heat your water and cool your house virtually for free. You don't need that power around the clock, 7-10 hours a day should be plenty.

@@gabrielfraser2109 And in most places you can pump excess back into the grid and the utility credits you. In Tacoma, WA for example it's actually valued the same as power you pull down from the grid, so you get a cash payout at the end of the year if your account is still positive. Other places still want to charge you a surcharge for each kWh that flows into your house, so you'd need a battery bank in order to avoid that, and of course there's a base monthly charge at 0 kWh usage for the connection.

@@gabrielfraser2109 if you have enough space for it you could build a small water tower and setup your own pumped hydro storage from the excess

@@googiegress7459 This is called "intermittent fasting" and it works.

It's the perfect sort of example where you understand how it ties in to real life.

Any Americans who chew you out about this are just jealous ;)

It helps that Quebec is like 4 times as large as Colorado, gets huge amounts of precipitation relative to Colorado, and only has a population about 40% greater. You guys are playing on the easy setting compared to most of the world.

@@richdobbs6595 Yes and no, we do have a huge area that's mostly unihabitable; our southern 200 miles is about as dense and urbanised as Ohio, while the northern 90% is more like Alaska...
Historically, we started as a sparsely populated French colony that ended up conquered by the Brits (paying for it led to the Boston Tea Party BTW), but they let us keep our catholic civil code and french language so we would'nt join the US...
We still ended up under the english economic boot surrounded by the brittish crown loyalists that fled New England and formed Canada without our consent (Québec never signed the constitution, between the two referendums for independance)...
Let's just say thar we pretty much stagnated as 2nd class citisens and cheap labor for New Hampshire and NewYork factories, until WW2's baby boom electorate quietly overthrew our theocracy overnight into the modern socialist Québec province that's the main reason Canada is leaning left. 😅
It's not all down to luck; for instance Alberta has huge hydro potential but is cursed by tar sands oil that stiffles economic diversity.

@@richdobbs6595 And btw, Colorado has about the same electricity price we have, the difference is that it is dispersed in many private pockets without a unified plan, while we leveraged the nationalisation of electricity as a way to diversify our economy, develop our engineering expertise, and as state revenue to afford a very interventionist state. Pretty much the only way we weathered the 2008 crisis better than the rest of North America.
Heck, we have labor shortages even despite Covid. 😅
You're welcome to immigrate if you're willing to learn french. 😉

I'm in Tasmania, Australia, and our system sounds similar - we have a 100 year old network of hydro stations, built by the government, running the state! Emission free electricity before it was cool!

Theres a town called Wendover in Colorado

@@aespa690 Damn I guess we finally figured it out.

Да, товарищ

Blaaahahahahhahahahahhahaha

The cost to set it up can be as much as $7K. The Tesla Roadster in 2009 had V2G but not many used it. I see that changing now that people are more familiar with V2G.

Chademo is the only standard that implemented V2G early. Most of the world don't use chademo though.

That also means that driving a car for 100km uses the same amount of energy as the average austrian uses in a day, which is kind of crazy to me. I know plenty of people who drive that much or even twice that much every day.

Well depending on where you live, it gets hot as hell in summer. Just yesterday on December 1st it was near 90°F at my house

Tends to get A LOT hotter in summer in Phoenix than in gay Paris.

@@jr2904 in a way it's worse in the UK when it gets very hot. Because we don't have aircon and our houses are built for warmth in winter. We also have higher humidity. I've had 100F in LA and 90F in London and LA is much more preferable even ignoring the air con.
But yeah my point was because it's hotter.

It peaks in Dec/Jan in Australia- but not because it's cold, because it's damn hot.

@@m2heavyindustries378 that’s right I always forget your upside down

he lives there

best state

That's crazy I didn't know that. Colorado is my home state too.

Colorado slaps bro

Colorado is just better

None of these options exists at a grid scale. If they ever exist in the future, Meanwhile, there's li-ion batteries operating grid scale right now. Think he focused mostly on what's on right now.

You also gotta think about having to have 4x the footprint for the same capacity as Li-Ion, it usually is more economic to go Li-Ion which still isn't that economically friendly yet

Snoopers gonna Snoop

Go and rewatch the video, figure it out yourself. Keyword starts with B

because the entire country involves multiple parties, and so keeping electrical costs low is much more important. a "single large complex" involves just a single party who accepts the additional upfront cost ahead of time ie they are their own customer.

Because we value upholding the religion of capitalism more than we value results.

Ford hasn't revealed the battery capacity of the lightning yet. So we don't know how many days it can power a home.

Ya exactly, as soon as he mentioned vehicle to house power I thought of the ford lightning.

@@alexzz1234 they said up to 10 days if you're conservative

This just emphasizes how much the government and private business needs to step in and help smooth the transition to renewable energy, so we don't have 900k US oil and coal workers suddenly left out in the cold.
But it's not an argument to slow renewables, because 13 million on the coast will lose their homes, jobs, everything and be displaced - not to mention everyone affected by permafrost melt, glacial retreat, ocean acidification, etc. The locals in coal country just don't care about those people as much as they care about themselves. And admittedly, those other people care less about coal folks than they care about themselves. It just so happens if everyone voted on it based purely on the self-interest of survival (and anyone not losing a job or home over it just shut up) the fossil folks would be outnumbered 20:1. So ignoring the potential for all the world's economies and cultures to crash, and ruin the oceans and atmosphere, etc. then the pure democracy of Americans voting for their livelihoods would be an incredibly solid and unequivocal "down with fossil fuels".
We need to get those 900k folks solid support in getting out of the industry.

Just wait 10 years. You will get cancelled (thankfully!) even for suggesting that coal is a solution. Society and technology moves forward.

@@markusklyver6277 Though by the time it gets to that point here there may not be anyone left to be discussing it. Without fossil fuels a few ranchs would be about all the economic activity left in the region.

This video is mostly about the electricity grid in its current form. Energy sources that aren't wide spread yet are outside of the video's scope.

Not a lot of tides and underwater currents here in Colorado!

1 - Solar is heavily variable due to clouds, and peak heat lags behind peak sun
2/3 - Geothermal and tidal are currently insignificant contributors to the US power mix.

I think Solar doesn't meet consumer demand because a majority of people use large building AC during the day and later, when solar production is lower, go home and turn on AC for their own homes. I'm assuming large AC units are more efficient than small houses.

@@jamesmnguyen More efficient, yes, but also the commercial spaces have better insulation etc. Also the interior sections of the building aren't taking in heat through an outer wall or windows, so they're effectively insulated by the exterior rooms, and it's easier to keep them cool.
Re: AC in general, people can also program their AC at home to run at certain times. If you chill your home during off-peak times, then stop the AC during peak hours, you return home to cool air. I just wish refrigerators would pump their waste heat outdoors instead of into your kitchen which makes your AC cool the air down again.

It can be shockingly hot, but it's also well-grounded.

electric cost are going up all over the country right now and the Biden administration extended the 26% discount for solar into 2022. We'll see about additional years. I'm in Washington DC and I'm paying .0701 cents per kWh. My power company has already received approval to raise it to .0750 for 2022 from DC and is seeking approval to raise it to .0790 in 2023. They've publically said they likely will need to be at or above .09 by 2025 to cover upgrades. My cousin lives in Maryland on the Eastern shore and he's paying .1407 kWh as of Dec 2021.

Electricity is a hot topic at the moment, due to (of course) climate change, and renewed interest in nuclear power.
Also the price of electricity has SKYROCKETED in Europe. I'm currently playing 1000-1500% more in electricity bills this winter compared to last year, and places like Norway, prices are up to almost 2000% of what it was last year... We need to start building nuclear power now, these prices are unsustainable.

@@betterwithrum So little? In the Seattle area we pay about 11 cents per kWh, less than the national average of about 14 cents . I looked up DC and it says average 12.6 cents?

A worldwide blackout will soon happen.... within the next two months

Well hopefully one day they can plug those lights into their EV battery (just don't drive off without unplugging them first ;-)

It never only black or white with energy & carbon emissions, for that fact :D
Good or bad, green or dirty are categories that in the real world are often more like graphs, spectres, of continuous transitions, with many many shades of grey ^^

Nothing is fully green. Hydro, nuclear, wind and solar are all quite good emissions-wise.

"The millions of TONS of concrete poured would make me think otherwise."
I would think the emissions coming from this are not high per kWh produced.

Carbon impact from coal power stations only includes actually burning the coal, it never includes the energy and materials needed to build the power station. Weird how the goal posts seem to move whenever renewables are being discussed.

@@CharlesGregory In the IPCC reports as well?